SU879425A1 - Method and device for identification condenced moisture in gaseous mixture - Google Patents

Description

The invention relates to analytical technology, for example, to the field of quality control of the preparation of natural gas for transport and can be used in the oil and gas industry.

In the process of preparing natural and petroleum gas for transport, moisture is removed from the guy and the point of moisture is reduced in order to prevent moisture loss during gas transport. Gas quality control is carried out by sampling and determining their moisture content.

It is known in the practice of a gas analysis * 5 technical solution that involves passing the test mixture through two chambers equipped with sensitive elements [1]. __

However, this technical solution * 0 does not allow fixing droplet moisture.

The closest technical solution to the invention is a method of indicating the presence of the gas mixture Ka * ^a sensible moisture, comprising administering to a sample chamber and metering chamber in the moisture content of the mixture.

A device for implementing the method comprises a sampler, a camera connected to it with inlet and outlet openings, in which a moisture sensor f2j is installed.

The known method and device for its implementation does not record the presence of droplet-weighted moisture in the sampled gas, which in turn reduces the reliability of determining the value of moisture content.

The aim of the invention is to improve the accuracy and reliability of the indication of droplet moisture in the gas mixture. 'This goal is achieved by the fact that in the method of indicating the presence of droplet moisture in the gas mixture, which consists in introducing the sample into the chamber and measuring the moisture content of the mixture in this chamber, the sample is simultaneously introduced in the second chamber, the pressure in the chambers is set different in magnitude, but lower than the pressure at the sampling point, the moisture content in the second chamber is measured, the deviation of which from the moisture content in the first chamber judging the presence in the mixture of condensed moisture.

In addition, the temperature in the chambers is maintained not lower than the temperature at the sampling point.

This method can be implemented due to the fact that the device containing the sampler, a camera connected to it with inlet and outlet openings, in which a moisture content sensor is installed, is equipped with a second camera connected to the sampler, the inlet section of which is equal to the section of the inlet section of the first camera, and the cross section of the outlet is not equal to the cross section of the outlet of the first chamber.

The method and device for its implementation are illustrated in the drawing.

The device comprises a housing 1 with: an inlet pipe for gas 2 and a cover 3, which is attached to the housing 1 by screws. Chambers 4 and 5 are made in the housing and the cover, in which moisture content sensors 6 and 7 are installed. Chambers 4 and 5 have equal cross-sectional area (inlet openings 8 and 9) and different cross-sectional areas (outlet openings 10 and 11) connected output channel

12. Chambers 4 and 5 are equipped with temperature sensors 13 and 14 and piezoelectric sensors 15 and 16, and moisture sensors 6 and 7 are connected to recording devices 17 and 18. In the housing 1, in its lower part, heaters 19 and 20 are installed near the cameras 4 and 6.

The essence of the proposed method for determining the moisture content of gas and the principle of operation of the device for its implementation is as follows.

A gas sample through the inlet pipe 2 is sent simultaneously to two chambers 4 and 5, in which moisture sensors 6 and 7 are installed. Since the passage sections of the inlet openings 8 and 9 of the chambers. 4 and. 5 Same, and 40 sections of the outlet openings 10 and 11 different, then different pressures are set in the chambers, which are lower than the pressure at the gas sampling point. The pressures in chambers 4 and 5 are recorded 45 by piezo sensors 15 and 16. At the same time, the temperature in chambers 4 and 5 is set and maintained by heaters 19 and 20 at a level higher than the temperature at the sampling point.

Due to the fact that in the chambers 4 and the pressure is lower than the pressure at the gas sampling point, and the temperature is higher than the temperature at the gas sampling point, it is natural that the moisture capacity of the gas passing through the chambers is higher than the gas moisture capacity at the gas sampling point. In this case, the moisture capacity of the gas passing through the chamber with a lower pressure is higher than the moisture capacity of the gas passing through the chamber with a higher pressure. In the event that the gas does not contain droplet-weighted moisture, moisture sensors 6 and 7 are fixed on recording instruments and 18. Equal values of moisture content are $ 5. In the case of the presence of droplet ~ suspended moisture in the gas, the moisture content in the gas stream passing through ~. cutting a chamber with a lower pressure will be higher than the moisture content of the gas passing through the chamber with a higher pressure.

Thus, the coincidence of moisture content measurements determines their reliability, and the difference shows the presence of droplet-weighted moisture.

This method and device for its implementation use the property of gas to increase moisture capacity with decreasing pressure and increasing temperature. Since the moisture content of the gas in a closed container at the time of determination is constant, the increase in the moisture capacity of the gas during the selection process makes it possible to detect the presence of droplet-weighted moisture and increase the reliability of the moisture content determinations.

The method and device allow the use of modern moisture sensors for the needs of the oil and gas industry and will significantly improve the quality of control over the dehydration of oil and associated gas.

Claims (2)

This method can be implemented due to the fact that the device containing the sampler, the chamber connected to it with the inlet and outlet openings, in which the moisture content sensor is installed, is equipped with a second chamber connected to the sampler, the opening cross section of which is equal to the inlet cross section the cross section of the first chamber, and the cross section of the outlet opening is not equal to the cross section of the outlet opening of the first chamber. The method and apparatus for carrying it out is illustrated in FIG. The device comprises a housing of 1 s; The inlet gas for gas 2 and the lid 3, which is attached to the body with 1 screws, are made of chambers 4 and 5 in the body and lid, in which moisture content sensors 6 and 7 are installed. Chambers 4 and 5 have equal cross-sectional areas (input openings 8 and 9) and outlet openings 10 and -I, which are different in cross-sectional area, are connected by an output channel 12. Cameras 4 and 5 are equipped with thermal sensors 13 and 14 and piezo-sensors 15 and 16, and moisture sensors 6 and 7 are connected to recording devices 17 and 18. In case 1 in the lower part of the row with chambers 4 and 6 are installed a nag evateli 19 and 20. The essence of the inventive method for determining the moisture content of gas and operating principles of the device for performing it is as follows. The gas sample through the inlet port 2 is directed simultaneously to the two chambers 4 and 5, in which the moisture content sensors 6 and 7 are installed. As the flow sections of the inlet holes 8 and 9 are the chambers. 4 and. 5 are the same, and the cross-sections of the outlet openings Yu and 11 are different, different pressures are established in the chambers, which are lower than the pressure at the gas sampling site. The pressures in chambers 4 and 5 are recorded by piezoelectric sensors 15 and 16. At the same time, the temperature in chambers 4 and 5 is established and maintained by heaters 19 and 20 at a level above the temperature at the sampling site. Since the pressure in chambers 4 and 5 is lower than the pressure at the gas extraction point, and the temperature is higher than the temperature at the gas sampling point, it is natural that the moisture capacity of the gas passing through the chambers is higher than the gas moisture content at the gas extraction point. In this case, the water capacity of the gas passing through the chamber with a lower pressure is higher than the water capacity of the gas passing through the chamber with a higher IMM pressure. In the event that the gas does not contain droplet-weighted moisture, the moisture content sensors 6 and 7 are fixed on the recording devices 17 and 18. equal values of moisture content. In the case of the presence of droplet-weighted moisture in the gas, the moisture content / flow in the gas stream passing through. cutting the chamber at a lower pressure will be higher than the moisture content of the gas passing through the chamber at a higher pressure. Thus, the coincidence of measurements of moisture content determines their reliability, and the difference shows the presence of droplet-weighted moisture. This method and apparatus for its implementation use the property of gas to increase the water capacity with decreasing pressure and with increasing temperature. Since the moisture content of the gas in the closed tank at the time of the determination is constant, the increase in the water capacity of the gas during the selection process makes it possible to detect the presence of droplet-weighted moisture and to increase the reliability of the determination of moisture content. The method and the device allow the use of modern sensors of moisture content for the needs of the oil and gas industry and significantly improve the quality of monitoring the dehydration of petroleum and associated gas. Invention 1. A method for indicating the presence of droplet moisture in a gas mixture, consisting in introducing a sample into the chamber and measuring the moisture content of the mixture in this chamber, characterized in that, in order to improve the accuracy and reliability of the display, the sample is simultaneously introduced into the second chamber. The chambers are installed in different sizes, but below the pressure at the sampling point, the moisture content in the second chamber is measured, by the deviation of which from the moisture content in the first chamber, the presence of condensed moisture in the mixture is determined. 2. Method POP1, characterized in that the temperature in the chambers is maintained not lower than the temperature at the sampling point. 3. A device for carrying out the method according to Claims 1 and 2, comprising a sampler, a chamber connected thereto with inlets and outlets, in which a moisture sensor is installed, characterized in that it is equipped with a second chamber connected to the sampler, is equal to the cross section of the inlet section of the first chamber, and the cross section of the outlet is not equal to the cross section of the outlet of the first chamber. Sources of information taken into account during the examination 1. USSR author's certificate No. 320771, cl. G 01 N 31/08, 1969. 2. US patent number 3552187, CL.73-23, published 1971 (prototype).